Transcript Laser Communication Systems.pdf

SHRI DADAJI INSTITUTE OF
TECHNOLOGY & SCIENCE
A SEMINAR ON
LASER COMMUNICATION
PRESENTED BY:
HITESH
SILARPURIYA
E.C. FOURTH SEM
CONTENT
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INTRODUCTION
ORDINARY LIGHT Vs LASER LIGHT
COMMON COMPONENT OF LASER
LASER COMPONENT
LASING ACTION
LASING ACTION DIAGRAM
BASIC LASER OPERATION
TYPES OF EMISSION
TYPES OF LASER
: RUBY LASER
: ND-YAG
ADVANTAGES
DISADVANTAGES
APPLICATION
CONCLUSION
INTRODUCTION
 The word LASER stands for Light Amplification by
Stimulated Emission of Radiation
 The light emitted from a laser is monochromatic, that is,
it is of one color/wavelength. In contrast, ordinary white
light is a combination of many colors (or wavelengths) of
light.
 Lasers emit light that is highly directional, that is, laser
light is emitted as a relatively narrow beam in a specific
direction. Ordinary light, such as from a light bulb, is
emitted in many directions away from the source.
 The light from a laser is said to be coherent, which
means that the wavelengths of the laser light are in
phase in space and time. Ordinary light can be a mixture
of many wavelengths.
Incandescent vs. Laser Light
Many wavelengths
Multidirectional
Incoherent
Monochromatic
Directional
Coherent
Common Components of all Lasers
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Active Medium
The active medium may be solid crystals such as ruby or
Nd:YAG, liquid dyes, gases like CO2 or Helium/Neon, or
semiconductors such as GaAs. Active mediums contain atoms
whose electrons may be excited to a metastable energy level by
an energy source.
Excitation Mechanism
Excitation mechanisms pump energy into the active medium by
one or more of three basic methods; optical, electrical or
chemical.
High Reflectance Mirror
A mirror which reflects essentially 100% of the laser light.
Partially Transmissive Mirror
A mirror which reflects less than 100% of the laser light and
transmits the remainder.
Laser Components
Gas lasers consist of a gas filled tube placed in the laser cavity. A voltage (the
external pump source) is applied to the tube to excite the atoms in the gas to
a population inversion. The light emitted from this type of laser is normally
continuous wave (CW).
Lasing Action
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Energy is applied to a medium raising electrons to an unstable energy
level.
These atoms spontaneously decay to a relatively long-lived, lower
energy, metastable state.
A population inversion is achieved when the majority of atoms have
reached this metastable state.
Lasing action occurs when an electron spontaneously returns to its
ground state and produces a photon.
If the energy from this photon is of the precise wavelength, it will
stimulate the production of another photon of the same wavelength and
resulting in a cascading effect.
The highly reflective mirror and partially reflective mirror continue the
reaction by directing photons back through the medium along the long
axis of the laser.
The partially reflective mirror allows the transmission of a small amount of
coherent radiation that we observe as the “beam”.
Laser radiation will continue as long as energy is applied to the lasing
medium.
Lasing Action Diagram
Energy Introduction
Excited State
Meta stable State
Spontaneous
Energy
Emission
Stimulated
Emission of
Radiation
Ground State
TYPES OF EMISSION
THERE ARE TWO TYPES OF EMISSION:
SPONTANEOUS
STIMULATED
TYPES OF LASER
SOLID STATE LASER
: RUBY LASER
: ND YAG LASER
GAS LASER
: He Ne LASER
MOLECULAR LASER
: CARBON-DIOXIDE LASER
RUBY LASER
RUBY LASER IS A PULSE TYPE
OF LASER.IT CONSIST OF RUBY
CRYSTAL ROD,RESONANT
CAVITY,OPTICAL PUMPING
SYSTEM,COOLING SYSTEM.
RUBY LASER
ND-YAG
ND YAG LASER IS ONE OF THE MOST
POPULAR TYPES OF SOLID LASER
IT IS A FOUR LEVEL LASER
FULL FORM OF ND YAG IS
NEODYMIUM YITTRIUM ALUMINIUM
GARNET.
ND-YAG LASER
ADVANTAGES
DIRECTIONALITY
COHERENCE
INTENSITY
MONOCHROMATICITY
DISADVANTAGES
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Eye : Acute exposure of the eye to lasers of certain
wavelengths and power can cause corneal or retinal burns
(or both). Chronic exposure to excessive levels may cause
corneal or lenticular opacities (cataracts) or retinal injury.
Skin : Acute exposure to high levels of optical radiation may
cause skin burns; while carcinogenesis may occur for
ultraviolet wavelengths (290-320 nm).
Chemical : Some lasers require hazardous or toxic
substances to operate (i.e., chemical dye, Excimer lasers).
Electrical : Most lasers utilize high voltages that can be
lethal.
Fire : The solvents used in dye lasers are flammable. High
voltage pulse or flash lamps may cause ignition. Flammable
materials may be ignited by direct beams or specular
reflections from high power continuous wave (CW) infrared
lasers.
APPLICATIONS
IN MEASUREMENT OF VERY LONG
DISTANCE
IN MAKING FINE HOLE & CUTTING THE
THICK METAL SHEETS
IN SURGERY
IN CHEMISTRY
IN SPACE
CONCLUSION
IT WAS DISCOVERED IN 1950 BY
SHALLOW & TOWNES
IT IS BENEFICIAL TO OTHER LIGHT
TRANSMITTING DEVICE B’COZ OF IT’S
VARIOUS EFFECTIVE
CHARACTERISTICS
THANK YOU